def main(): cpus = perf.cpu_map() threads = perf.thread_map() evsel = perf.evsel(type = perf.TYPE_SOFTWARE, config = perf.COUNT_SW_DUMMY, task = 1, comm = 1, mmap = 0, freq = 0, wakeup_events = 1, watermark = 1, sample_id_all = 1, sample_type = perf.SAMPLE_PERIOD | perf.SAMPLE_TID | perf.SAMPLE_CPU) """What we want are just the PERF_RECORD_ lifetime events for threads, using the default, PERF_TYPE_HARDWARE + PERF_COUNT_HW_CYCLES & freq=1 (the default), makes perf reenable irq_vectors:local_timer_entry, when disabling nohz, not good for some use cases where all we want is to get threads comes and goes... So use (perf.TYPE_SOFTWARE, perf_COUNT_SW_DUMMY, freq=0) instead.""" evsel.open(cpus = cpus, threads = threads); evlist = perf.evlist(cpus, threads) evlist.add(evsel) evlist.mmap() while True: evlist.poll(timeout = -1) for cpu in cpus: event = evlist.read_on_cpu(cpu) if not event: continue print "cpu: %2d, pid: %4d, tid: %4d" % (event.sample_cpu, event.sample_pid, event.sample_tid), print event
def main(): cpus = perf.cpu_map() threads = perf.thread_map() evsel = perf.evsel(task = 1, comm = 1, mmap = 0, <<<<<<< HEAD wakeup_events = 1, watermark = 1, ======= <<<<<<< HEAD wakeup_events = 1, watermark = 1, ======= wakeup_events = 1, sample_period = 1, >>>>>>> 58a75b6a81be54a8b491263ca1af243e9d8617b9 >>>>>>> ae1773bb70f3d7cf73324ce8fba787e01d8fa9f2 sample_id_all = 1, sample_type = perf.SAMPLE_PERIOD | perf.SAMPLE_TID | perf.SAMPLE_CPU | perf.SAMPLE_TID) evsel.open(cpus = cpus, threads = threads); evlist = perf.evlist(cpus, threads) evlist.add(evsel) evlist.mmap() while True: evlist.poll(timeout = -1) for cpu in cpus: event = evlist.read_on_cpu(cpu) if not event: continue print "cpu: %2d, pid: %4d, tid: %4d" % (event.sample_cpu, event.sample_pid, event.sample_tid), print event
def main(context_switch=0, thread=-1): cpus = perf.cpu_map() threads = perf.thread_map(thread) evsel = perf.evsel(type=perf.TYPE_SOFTWARE, config=perf.COUNT_SW_DUMMY, task=1, comm=1, mmap=0, freq=0, wakeup_events=1, watermark=1, sample_id_all=1, context_switch=context_switch, sample_type=perf.SAMPLE_PERIOD | perf.SAMPLE_TID | perf.SAMPLE_CPU) """What we want are just the PERF_RECORD_ lifetime events for threads, using the default, PERF_TYPE_HARDWARE + PERF_COUNT_HW_CYCLES & freq=1 (the default), makes perf reenable irq_vectors:local_timer_entry, when disabling nohz, not good for some use cases where all we want is to get threads comes and goes... So use (perf.TYPE_SOFTWARE, perf_COUNT_SW_DUMMY, freq=0) instead.""" evsel.open(cpus=cpus, threads=threads) evlist = perf.evlist(cpus, threads) evlist.add(evsel) evlist.mmap() while True: evlist.poll(timeout=-1) for cpu in cpus: event = evlist.read_on_cpu(cpu) if not event: continue print "cpu: %2d, pid: %4d, tid: %4d" % ( event.sample_cpu, event.sample_pid, event.sample_tid), print event
def _instance_init(self, instance): instance._has_dynamic_tuning = False instance._has_static_tuning = True # this is hack, runtime_tuning should be covered by dynamic_tuning configuration # TODO: add per plugin dynamic tuning configuration and use dynamic_tuning configuration # instead of runtime_tuning instance._runtime_tuning = True # FIXME: do we want to do this here? # recover original values in case of crash self._scheduler_original = self._storage.get( self._scheduler_storage_key, {}) if len(self._scheduler_original) > 0: log.info("recovering scheduling settings from previous run") self._restore_ps_affinity() self._scheduler_original = {} self._storage.unset(self._scheduler_storage_key) self._cgroups_original_affinity = dict() # calculated by isolated_cores setter self._affinity = None self._cgroup_affinity_initialized = False self._cgroup = None self._cgroups = collections.OrderedDict([ (self._sanitize_cgroup_path(option[7:]), self._variables.expand(affinity)) for option, affinity in instance.options.items() if option[:7] == "cgroup." and len(option) > 7 ]) instance._scheduler = instance.options for k in instance._scheduler: instance._scheduler[k] = self._variables.expand( instance._scheduler[k]) if self._cmd.get_bool(instance._scheduler.get("runtime", 1)) == "0": instance._runtime_tuning = False instance._terminate = threading.Event() if self._daemon and instance._runtime_tuning: try: instance._threads = perf.thread_map() evsel = perf.evsel(type=perf.TYPE_SOFTWARE, config=perf.COUNT_SW_DUMMY, task=1, comm=1, mmap=0, freq=0, wakeup_events=1, watermark=1, sample_type=perf.SAMPLE_TID | perf.SAMPLE_CPU) evsel.open(cpus=self._cpus, threads=instance._threads) instance._evlist = perf.evlist(self._cpus, instance._threads) instance._evlist.add(evsel) instance._evlist.mmap() # no perf except: instance._runtime_tuning = False
def perf_init(self): self.cpu_map = perf.cpu_map() self.thread_map = perf.thread_map() self.evsel_cycles = perf.evsel(task = 1, comm = 1, wakeup_events = 1, watermark = 1, sample_type = perf.SAMPLE_CPU | perf.SAMPLE_TID) self.evsel_cycles.open(cpus = self.cpu_map, threads = self.thread_map); self.evlist = perf.evlist(self.cpu_map, self.thread_map) self.evlist.add(self.evsel_cycles) self.evlist.mmap() self.pollfd = self.evlist.get_pollfd() for f in self.pollfd: gobject.io_add_watch(f, gtk.gdk.INPUT_READ, self.perf_process_events) self.perf_counter = {}
def _instance_init(self, instance): instance._has_dynamic_tuning = False instance._has_static_tuning = True # this is hack, runtime_tuning should be covered by dynamic_tuning configuration # TODO: add per plugin dynamic tuning configuration and use dynamic_tuning configuration # instead of runtime_tuning instance._runtime_tuning = True # FIXME: do we want to do this here? # recover original values in case of crash instance._scheduler_original = self._storage.get( self._scheduler_storage_key(instance), {}) if len(instance._scheduler_original) > 0: log.info("recovering scheduling settings from previous run") self._instance_unapply_static(instance) instance._scheduler_original = {} self._storage.unset(self._scheduler_storage_key(instance)) instance._scheduler = instance.options for k in instance._scheduler: instance._scheduler[k] = self._variables.expand( instance._scheduler[k]) if self._cmd.get_bool(instance._scheduler.get("runtime", 1)) == "0": instance._runtime_tuning = False instance._terminate = threading.Event() if self._daemon and instance._runtime_tuning: try: instance._cpus = perf.cpu_map() instance._threads = perf.thread_map() evsel = perf.evsel(type=perf.TYPE_SOFTWARE, config=perf.COUNT_SW_DUMMY, task=1, comm=1, mmap=0, freq=0, wakeup_events=1, watermark=1, sample_type=perf.SAMPLE_TID | perf.SAMPLE_CPU) evsel.open(cpus=instance._cpus, threads=instance._threads) instance._evlist = perf.evlist(instance._cpus, instance._threads) instance._evlist.add(evsel) instance._evlist.mmap() # no perf except: instance._runtime_tuning = False
def perf_init(self): self.cpu_map = perf.cpu_map() self.thread_map = perf.thread_map() self.evsel_cycles = perf.evsel(task=1, comm=1, wakeup_events=1, watermark=1, sample_type=perf.SAMPLE_CPU | perf.SAMPLE_TID) self.evsel_cycles.open(cpus=self.cpu_map, threads=self.thread_map) self.evlist = perf.evlist(self.cpu_map, self.thread_map) self.evlist.add(self.evsel_cycles) self.evlist.mmap() self.pollfd = self.evlist.get_pollfd() for f in self.pollfd: gobject.io_add_watch(f, gtk.gdk.INPUT_READ, self.perf_process_events) self.perf_counter = {}
def main(): cpus = perf.cpu_map() threads = perf.thread_map() evsel = perf.evsel(task = 1, comm = 1, mmap = 0, wakeup_events = 1, watermark = 1, sample_id_all = 1, sample_type = perf.SAMPLE_PERIOD | perf.SAMPLE_TID | perf.SAMPLE_CPU) evsel.open(cpus = cpus, threads = threads); evlist = perf.evlist(cpus, threads) evlist.add(evsel) evlist.mmap() while True: evlist.poll(timeout = -1) for cpu in cpus: event = evlist.read_on_cpu(cpu) if not event: continue print "cpu: %2d, pid: %4d, tid: %4d" % (event.sample_cpu, event.sample_pid, event.sample_tid), print event
def _instance_init(self, instance): instance._has_dynamic_tuning = False instance._has_static_tuning = True # this is hack, runtime_tuning should be covered by dynamic_tuning configuration # TODO: add per plugin dynamic tuning configuration and use dynamic_tuning configuration # instead of runtime_tuning instance._runtime_tuning = True # FIXME: do we want to do this here? # recover original values in case of crash instance._scheduler_original = self._storage.get(self._scheduler_storage_key(instance), {}) if len(instance._scheduler_original) > 0: log.info("recovering scheduling settings from previous run") self._instance_unapply_static(instance) instance._scheduler_original = {} self._storage.unset(self._scheduler_storage_key(instance)) instance._scheduler = instance.options for k in instance._scheduler: instance._scheduler[k] = self._variables.expand(instance._scheduler[k]) if self._cmd.get_bool(instance._scheduler.get("runtime", 1)) == "0": instance._runtime_tuning = False instance._terminate = threading.Event() if self._daemon and instance._runtime_tuning: try: instance._cpus = perf.cpu_map() instance._threads = perf.thread_map() evsel = perf.evsel(type = perf.TYPE_SOFTWARE, config = perf.COUNT_SW_DUMMY, task = 1, comm = 1, mmap = 0, freq = 0, wakeup_events = 1, watermark = 1, sample_type = perf.SAMPLE_TID | perf.SAMPLE_CPU) evsel.open(cpus = instance._cpus, threads = instance._threads) instance._evlist = perf.evlist(instance._cpus, instance._threads) instance._evlist.add(evsel) instance._evlist.mmap() # no perf except: instance._runtime_tuning = False